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Received March 25, 2004
Accepted August 7, 2004
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Recovery of Esters from Dilute Aqueous Solutions by Vapor Permeation
Department of Chemical Engineering, Kangwon National University, Chunchon 200-701, Korea
krlee@cc.kangwon.ac.kr
Korean Journal of Chemical Engineering, November 2004, 21(6), 1178-1182(5), 10.1007/BF02719491
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Abstract
The vapor permeation characteristics of ester compounds (ethyl acetate, EA; ethyl propionate, EP; and ethyl butyrate, EB) through a tube-type surface-modified alumina-silane hydrophobic membrane were investigated. Experiments were performed to evaluate the effects of the feed concentration (0.15-0.60 wt%) and temperature (30-50 ℃) on the separation of EA, EP, and EB from aqueous solutions. It was found that the permeation flux increased with increasing feed ester concentration and operating temperature. The fluxes of EA, EP, and EB at 0.60 wt% feed concentration and 40 ℃ were 282, 506, 742 g/m2·h, which were much higher than those of PDMS polymer membrane. The separation factors for the 0.15-0.60 wt% feed solutions of EA, EP, and EB at 40 ℃ were in the range of 28.1-93.9, 145.3-162.6, and 260.4-268.8, respectively. Phase separation occurred in the permeate when collected in a cold trap, because the concentration of the ester in the permeate was much higher than its solubility.
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References
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Ho CT, Tan CT, Tong CH, "Flavor Technology, Physical Chemistry, Modification, and Process," American Chemical Society, Washington, DC (1995)
Howell JA, Sanchez V, Field RW, "Membrane in Bioprocessing Theory and Application," Elsevier Applied Science, New York (1993)
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Lide DR, "Handbook of Chemistry and Physics," 74th Edition, CRC, USA (1993)
Mulder M, "Basic Principles of Membrane Technology," Kluwer, 2nd Ed., Netherlands (1991)
Rajagopalan N, Cheryan M, J. Membr. Sci., 104(3), 243 (1995)
Ren JZ, Jiang CZ, J. Membr. Sci., 140(2), 221 (1998)
Schafer T, Bengtson G, Pingel H, Boddeker KW, Crespo JPSG, Biotechnol. Bioeng., 62(4), 412 (1999)
Song KM, Hong YK, Yu J, Hong WH, Korean J. Chem. Eng., 19(2), 290 (2002)
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Yeom CK, Dickson JM, Brook MA, Korean J. Chem. Eng., 13(5), 482 (1996)
